JP3801202B2 - Liquid container outlet to connect to service line connector - Google Patents

Abstract

A spout fitment attached to a liquid filled bag, or other fluid container, of a type having a slidable dispensing valve member to receive a line connector for establishing a fluid path from an interior of the container, through a valve element in the line connector and into a service line attached to the line connector. Although the dispensing valve member is slid into the container when the line connector is inserted therein, the sliding motion does not form the container valve action. The container seal is established by a valve element within the slidable dispensing valve member that is resiliently biased to close an opening therein. The dispensing valve member thus need not be slid in the fitment when the line connector is removed from the dispensing valve member, thereby making it easier to remove and reinsert the line connector. Insertion of the line connector within the dispensing valve member causes their respective valve elements to engage each other to open and form the fluid flow path.

Description

Background of the Invention
The present invention,oneGenerally,Service line for liquid flowWith respect to the connector, the connector is a liquidEnteredIn a bag or other fluid containerRemovably attached to the discharge port with the coupling part.
Transport and useofCardboard with purposeIs contained withinLiquid in a flexible plastic bagAlthough it is inThere are many applications.Such containers of liquid are generally supplied to the liquid user, provided that the container is connected to a liquid supply device.. This exampleAs, Soft drink industryIs mentioned,In that industry,Soft drink syrup containerBut,For fast food restaurants and other usersShipped. When the syrup container is empty,AttachedLineRemoveTo a soft drink blenderAttachedManually from stateRemoved.ThenFresh and full syrup containerTheReplace with empty one, liquid supply lineTheIn a full containerAttach.
Such liquidSupplyLine to liquid supply containerRemovably attachOne popularizationdidapparatusBut, Provided by Ricky BoxHaveThe This device is described in US Pat. No. 4,421,146.AndReference is made to previously filed US Pat. No. 4,445,551.The descriptions of these patents are incorporated herein by reference in their entirety.US Pat. No. 4,421,146Interconnected to each otherIn liquid supply bagFittedFor joints and liquid supply linesFittedLine connectorExplain in detail and specialFrom the licenseeOriginally as a commercial productIt is available. Simply put, line connectors,edgeIn order to close the opening with a springValve biased atTheHave. In the containerFittedThe connection part of the discharge port is the line connectoredgeReceivePut inOpening forHave slidingSupply valve memberHave.valveThe line connector is connected to the jointFittedWhen you go to the bag against the jointTo slide. valveThe member is a valve memberLine to be installedAccording to connectorSlideWhen receiving liquidGet inExposed in a bag forWall sideOne or more openings alongPrepare.lineWhen removing the connector,SlideThe valve member, JointPosition inPull upReturnedClose the liquid opening side.lineSpring in the connectorBiased byThe valvelineconnectorofEngage with fixed position in line with valveTo be slidWhen inserted into a memberOpen and valveMaterialRahraincoNectaRemoveWhenClosed.
Partially emptyContainer from fluid supply deviceAlthough it is desirable to remove and then reinstall the container, it is often found by the user. An example is a soft drink syrup container,For example, before a fast food restaurant has a busy time, such as during normal lunch hours, a full syrup container has become a soft drink blender.Whether it is installedIf you want to checkIs.In such cases,Line connector, ThatlikePartially emptyFrom the containermanuallyRemoved and filled again into a full containerIt is attached. Lunch timeFinishIn a later daynot busytimeDuring ~And the userSome remain in an empty containerTo use syrup,beforeRemovedPartially emptyContainer againAttach.
This existing equipment liquid line connectorSupply bagIn the jointMounting,RemoveThoughGreatNaPower is needed. This is a line connectorOr wearing, RemovedidWhenOpenlocation andClosureIn the connection between the position and the supply valve memberSlideIt is the power required forThe need to remove and reinstall the resulting individual containers is a particularly serious problem for the user.
Therefore, the main purpose of the present invention is, YoEasiermanuallyoperationBe doneIt is to provide an improved connection device.
Summary of invention
Of the present inventionSaid purposeAnd other purposes for opening and closing the containerSlidingModifying the valve member in the container outlet connection to eliminate the need for actionBy,SimpleIn,AndgeneralIn addition,Achieved. The container valve is in the jointElastically biasedDepending on the valve elementProvidedThe coupling part is,Normal line connectorofLiquid openingCloseSpringBiased byAligned with the valveBe. Since the line connector is inserted in the joint of the discharge port,Elastically biasedValve, LaEngage with in-connector valveThe valves are opened individually.. Preferred implementationFormIn thisElastically biasedOutletCoupling valveThe first of the line connectorBy wearingIn the bagSlidingelementInsideInBe provided. This is a lot ofPermanent at the facilityThis is to apply to existing line connectors. LaIn connectorTo force this element to slide inwardBut first the line connector is in the containerWhen attached,SlidingElement line connectorSubsequent removal ofOr againDuring installation, Inner positionRemain. In this way, the line connectorSlidingElementIts firstAdd force to return to positionWithout having to, Removed from the joint of the discharge port. Also connect the line connectorThatAgain in the same jointFor mountingSliderThe power to move isAbsolutely necessaryIt has not been.
It is various aspects of the present inventionAdditional purpose, InterestThe points and features areMade in conjunction with the accompanying drawingsPreferred embodimentaboutOf the followingExplanationObvious fromWill become.
[Brief description of the drawings]
FIG.Shows the current line connectorThe improved valve arrangement of the present inventionIncludeAt the joint of the container discharge portIndicates partly attached state.
2 and FIG.Similar figureIn Although,Line connectorCompletely at the junction of the container outletIndicates attached state.
3A, 3B, and 3C illustrate the present invention.According to one embodimentImproved container connectionJoint ventureAssemblyWhen,Line connectorFully attached to the assemblyIn stateIts behavior andIndicates.
Figure 4The figure3A, 3B, and 3C valve assembliesWas cut at section 4-4 in FIG. 3A.It is sectional drawing.
FIG. 5 illustrates the valve assembly of FIGS. 3A, 3B, and 3C.Was cut at section 5-5 in FIG. 3A.It is sectional drawing.
FIG. 6A illustrates the present invention.otherImplementationFormbyCoupling valveAssemblyIndicate.
6B is an implementation of FIG. 6A.The form was cut off at section 6B-6BIt is sectional drawing.
FIG. 7 shows the present invention.Coupling valveAssemblyShow another embodiment.
FIG. 8 illustrates the present invention.Yet anotherImplementationFormImproved results byIndicates joint.
9 to 15 show the present invention.According to other embodimentsImproved container connectionJoint ventureAssemblyIs a cross-sectional view ofLine connectorIs attachedOrFrom the assemblytakeOutsideWhenShow its behavior.
DESCRIPTION OF PREFERRED EMBODIMENTS
First1 and 2SeeAnd generally in those figuresExemplificationOf the present inventionAspectIsMentioned aboveU.S. Pat. No. 4,421,146Already detailed inLine connectorWhenJointofelementAnd explained using. Therefore, in FIG. 1 and FIG.ExampleOf these structuresAspects are not repeated here. Combining FIGS. 1 and 2 described in the aforementioned patentThemelementInIsAdditionalDetailsExplanationSo that you can easily refer to it if you wantThatPatentNumber used inThe same reference number is assigned.
ThatPatentExplained inAs shown, the cross-sectional view of FIGS.Shown inThe connecting portion 21 connects the wall WHaveIn cardboardIs paidIn bag BAttached. The line connector 70 is connected to the connecting portion 21.partAsProvidedLine connector to flangeLateralMoveBy, Coupling portion 21Removably attached to. Liquid supply lineMounted fixture81Having lineThe connector body 71 is moved from the disengaged position in FIG. 1 to the fully engaged position in FIG.In between,manuallyIs slidable.lineOf the connector body 71edge73 Liquid receiverTheInsertion opening (end opening) 83(See Figure 3B)UsuallyIsDue to the force of the spring 87EnergizingHas beenLine connectorValve (first valve) 84WhenO-ring 85It is closed. lineLiquid receptacle for connector bodyTheInsert opening 83The line connector valve 84 with a certain forceBy pressingBe released.
In the present inventionAccording to, Mentioned abovePrior patentSupply valve member 22(Not shown)Is, SuReplaced with lidar 201The outer surface of which is shown in FIGS. 1 and 2. Various implementations of the slider 201FormThe internal structure ofExplanationBeforeFirstRefer to FIG.ActionIn generalExplanationTo do. The slider 201 is placed in the joint 21 of the discharge port.TightIs retained. The resistance to the movement of the slider 201 from the position shown in FIG. 1 to the position shown in FIG.,Slider 201WithOn the inner surface of the coupling part 21ProvidedIn combination with a slightly smaller diameter step 205Has occurred. OnlyAnd onceLine connector body 71In charge ofMatchAndPushed into the slider 201When,ThatResistor to move the slider to the position shown in FIG.ofIt can be resolved by applying sufficient hand power,in this case,Flange 203 is,On the inner surface of the coupling part 21ProvidedRingofIn step 207Abut.
According to the present invention, once the slider 201 is brought to the position shown in FIG. 2, the slider 201 is shown in FIG. Does not return to the position.Described in the aforementioned patentTheThe structure emphasizespointContrary to the jointofLine connector 71Against the drawerSlider 201 to line connector body 71InstallingforNo mechanism is provided.ThusThe line connector main body 71 is connected from the connecting portion.Necessary to pull outThe force is significantly reduced and the line connector body 71 passes through the container in which the slider 201 has been previously moved to the position shown in FIG.InagainAttachThe power needed toSameReduced toDo.
Container bagClose inFor the coupling part 21Slider 201Move back and forthBecause there is no need to let, The present inventionsoIn the slider 201Elastically biasedValve elementmake use of, The slider 201ButThe spring of the line connector body 71Biased byOf valve 84edgeEngage with 84aDoArranged in a straight lineBe.Thus,thisLavalelementEach ofTheClosureTo directionEnergizeElastic forceByWhen the line connector main body 71 moves from the position shown in FIG. 1 to the position shown in FIG.Open each valvelikeActionTo do. Similarly, remove the line connector body 71 from the slider 201.removeAs a result, the slider 201 isthe firstpositionUntilPull backNo need, these two valveseachElasticElements of theEnergizingForceWill be closed. Similarly, the line connector main body 71 is reattached to the slider 201.AndBy attachingNo need to move the slider 201Of lidar and line connectorseachvalveTheDue to the elastic force applied between themWill be opened. Slide the slider 201 to the rest positionTo move or hold one of themSpring or otherElasticNo elementsPointPlease keep in mind.
Of such a valve assembly in the slider 201One embodiment3A, 4 and 5Explained in relation to. Ring overallShapeMade plasticshell209 indicates the line connector main body 71.edge73 to accept 73Open end211Have.Wall 213 isExtending into the openingshellTo 209Reach,wall213Openings other than the smaller opening 215 atportionTheClose. A valve element 217 is disposed in the opening 215. The valve element 217 isKeep on the edgeHeldTheIncluding O-ring 219SeeThe end has a valve element 217, preferably stainless steel.steelMade withTheLeaf springSpring like223 to the opening (valve seat) 221PressedO-ringIt has a shape that holds 219 constantly.. Of course, some other knownIt is also possible to use a sealing mechanism. The valve element 217 is connected to the pin 224 together.Ne 223Attached. The spring 223 is generally star-shaped as shown in the cross-sectional view of FIG.To flowOther if possibleAppropriateIn shapeAlsoGood.SpringIsAs part of the shellIntegrated ringofIn stage 225AbuttingOutwardedgeByshell209.
The valve element 217 has a plurality of equally spaced ribs 229.HavePlow227Have. The rib is adjacent to the probe 227That ribEdgeAbutA surface 231 is formed. thisTableThe surface 231 is the probe 227End ofSame distance fromKeepAll positionsHas been. From FIG. 3BUnderstandThe probe 227 is,Of the line connector main body 71Liquid acceptanceThe outer circumference that fits inside the opening 83Have. As shown in FIG.2The diameter of 27 isBy making it sufficiently smaller than the diameter of the liquid receiving opening 83 of the line connector body, it allows liquid to flow between them when the probe is inserted into the line connector.. OnlyAndribEdge ofThe surface 231 isLiquid acceptanceOpenmouth83 is larger than 83, and the line connector body 71edge73Abutting.
Thus, from FIGS. 3B and 3CUnderstandSo that the line connector bodyshell209Open end ofBy inserting into 211,lineconnectorofValve 84 isOf the valve element 217Of the probe 227Edge and rearA distance equal to the surface 231 of theDiscipline. thisClosureIn positionofElastic force of spring element 223Is, Line connectorofOf spring 87ElasticitythanStrongerSince the valve element 217 is made, when this condition occurs,Remains closed. Line connectorofValvePressedAfter line connectorEnd of73The shell209InInsert furtherBy, Valve element 217The, Moved inside the wall 213 against the elastic force of the spring element 223Make. this is,Liquid acceptanceThe fixed end of the line connector around the opening 83 is the ribEdge ofSurface 231 ofAgainstDirectlyPressedBecause. Line connectorInsideThe valve has a valve element 217Be releasedWhenStay open. In FIG. 3C,shell209Fully insertedlineConnector bodyedge73Is shown,Both valves areOpen. ,
In the figureAs a variation of the container coupling valve element 217 shown, rib 229TheOmittedCan also. JointofIfNe 223 and line connectorInsideRelative of valve spring 87TypicalStrength is more carefully controlledBeSo the position shown in Figure 3CToLine connector end 73To the slider 201Fully insertedDoWhen both valves areBe released. In any case, the line connector valve is connected in such a connection state.Openfor,Struts or other rigid elements, shells209 or other binding partsEitherFixedInstallingThere is no need.
As described hereinImplementationForm3C, the slider 201 moves from the position shown in FIG. 1 to the position shown in FIG.TheFully inserted into lidar 201DoIs the time. Outside the line connector 71ElasticO phosphorusGroup 75 isshellEngaging with the inner surface of 209 is fully insertedthispositionWhenIt is. Line connector body 71 engages slider 201 at two positionsDoAs shown in FIG. 3C.OneLike thatPlaceThe device is an annular cavityshell209 to the wall 213 extending into the interior of 209. Wall 213IsFor this purpose, the line connector main body 71edge73'sshapeAnd overall fitIn shape likeFormedNote from FIGS. 3A, 3B, and 3C. LaA contact shoulder 76a extending around the in-connector body 71;shell209'sOpen end211EdgeBetween 233Is the second contact surfaceIt is. The contact surface is complementaryshapeIt is. In fact, in order to make the slider 201 movable by the first insertion of the line connector body 71,OneSuch contactOnlyMaintenanceDoThere is a need.
Thus, Slider 201SlidingThe containerBagOpen and close the outletNot necessary forCan be mentioned aboveExplanationIt can be understood from. The only liquid passage from the bag is the valveelement217 against the force of the spring 223PressedWhen opening 221 in wall 213Pass. Liquid opening is generally annularShapeMade plasticshellOn the 209 sideCannot be established.
Therefore, the movement of the slider 201 is no longer in the containerValveAsActionNot becauseMentioned aboveapparatusAlso,Replace the listed line connector with another line connectorIf you can replace it,ignoreRemodeled tocan do. Such modified line connectors areBecause it has a different shapeSlide the slider 201 to the inward position of FIG.No need to pressFully engaged with the container couplingTheLine connector and container connectionFirmlyInterconnectForDifferent technologiesAlsoExistingCommercially availableOn the device'sCan be replaced. Especially the existing sideMutualConnecting equipmentPosition (mounted from the side)Inserted axially into the margin jointHaveLine connectorCan be replaced,ThenSpringBiased byThe latch element is more automaticallyChisaIt is.
Slider 201InsideVariety of valve elementsspecificShape and lastingCan be used with any elastic mechanism. Referring to FIG. 6A, the slider 201otherImplementationFormCross section ofIs shown hereOnly with that shown in FIGS. 3A, 3B, and 3Cthe differenceHahaNe 223 for different typesNe 235ReplacementIt is that. Base 237Parts ofDoes not turn.Protrusion224 to the valve element 217FittedUpper part 239 is middlePart 241 through base 237InAttached.HingeIs the middle of the spring 235Part241 and top 239 contactPart243HaveThe Similarly,The other hingeThe mutual contact between the intermediate part 241 and the base part 237 of the spring 235Part 2Formed with 45HaveThe As a result, when a force is applied to the valve element 217, the valve element 217Part 2To 37AlmostMove in the vertical axis directionWill be.
In FIG.Yet another to showImplementationIn formIs the valve element 217 andshell209'spartCompressed between the step 225 formed asGoldSmall coil spring 247 made of genus wireIs included.
Referring to FIG.Other embodiments are shownValve hereelement217 and beyondSaid toImplementationFormOf each springOurOne was made to have a single elastic forceValve elementReplaced with 249HaveThe thisValve element249shellAdjacent to step 225 inside 209AndLiquidfluidOpen 251EdgeA cup-shaped flexible diaphragm base withInclude. Extending from the baseTenThe probe 253 made of a size with sufficient rigidity isFormValveelementSimilar to 217 probe 227,lineIn contact with the valve end 84a in the connector body 71Designed. FlangeAlso,Liquid acceptanceAdjacent to opening 83lineConnectoredgeForming a surface 255 for engaging with. Line connectorValve element 249When biased against, its base is the edge of the opening in the wall 213 'PartAnd normalSealingMoves out of engagement.Then, Liquid flows through the opening. Wall 213'But aheadSaid toImplementationFormWhat is the wall 213DivergenceBecomeshapePlease note that
Valve assemblyotherImplementation ofFormIs a cross-sectional view of FIGS.InVariousActionpositionAsIt is shown. This implementationForm1-5Relatedthings andThe sameBut there are some important differences. The coupling unit 301 is,A coupling portion 21 (FIGS. 1 and 2);Is the same. Coupling unit 301AlsoIn a bag or other container (not shown in FIGS. 9-15)Installed,With line connector 70the sameType of line connectorIts outer circumference is detachably mountedExtend toSame slider (Annular ring)TheHave. 11-14ShowLine connectorInIs compatibleDoSame reference number as elementButDateIsBut the prime symbol (’)Is added. Slider 303The figure1-5Already explained in connection withOn the slider 201EquippedDifferent valve assembly and other detailsHave. Of slider 303ActionIsNormallySlider 201 andthe sameIt is. For example,When a liquid connection is established between the line connector and the container, the lineOf the connector body 71 'edge73 'IsFirst new liquidPhysical conditionInserted into the joint 301 of the vesselThisRider 303Is a figure10-13InEachWasFrom the remaining part into the container (Figure 14)Be pushed into. afterwards,lineThe connector body 71 'is moved from the slider 303 (FIG. 15).takeWhen removed, the slider 303 extended into the containerRemain. 9-15Embodiment ofAnd implementation of Figs.FormBetween and otherDifferenceThe outer surface of the slider 303 and the inner surface of the coupling portion 301 have complementary shapes so that the slider is more securely held at various positions in the coupling portion 301.Is that it is provided.
9 and 10AlsoThe cap 305 is connected to the coupling portion 301 and the slider 303.AttachedIndicates stateYou. The plastic cap 305Manually from the position shown in the figure, orBy filling machineDetachableIt is. Figure 9 shows the container before it is filled with liquidCappedThe structure of the coupling | bond part of a container is shown. An empty squeezed plastic bag orOrOther types of containers can be used as shown in FIG.Side edgeLoosely mounted in the nearby coupling 301TheSlider 303ShippingIs done. As part of the filling process, cap 305 and slider 303 rapidly fill the container with liquid.forReceiving filling nozzleGet inRulikeLarge openingProvideIn order to achieve a singleunitAs removed. After filling, the slider 303 and the cap 305 areInserted again into the coupling part 301 as a unit. As shown in FIG.In order to prevent the slider 303 from slipping out of the coupling portion 301, the slider 303 is positioned sufficiently deeply in the coupling portion 301 so as to “close and snap” at an appropriate position.. Cap 305 is used for filled containersFor shippingMaintained in place during transport. The user attaches the container to the line connector.AttachWhen the cap 305 is removed.SimilarGeneral filling techniques and gapsAlso,Implementation of Figures 3-5FormIs not clearly shown there.
The structure of the valve element in the slider 303 of FIGS.Explain the operationTo do. The valve element 309 isA post extending in a cylindrical shape, the post being terminated as a free end of the probe 311 and having an uppermost end surface 311a, the post of the valve element extending through an opening 317 through a wall 319 across the slider 303. I'm out. The flange 313 exists at the end of the probe 311 opposite to the post. An annular ridge 321 is provided integrally with the wall 319 on the lower surface side of the wall 319, on the side opposite to the tip 311 a of the post of the valve element. AnnularOf the peak 321Outer edgeActs as a valve seat. Flange 313 is completely line connectorFittedWhen not (FIGS. 10, 11 and 15)Ne 3Fifteen partial forces or other resilient structures are held against this valve seat. Spring 315 isIt is very easily formed in an elongated shape, and has an end portion that is supplemented and held by a groove 323 formed in the inner surface of the slider 303.. Spring 315(In the direction of the figure)narrowBy widthThe line connectorFittedWhen in the slider so that liquid flows from the container through the sliderAround the spring 315Ensuring sufficient spaceHaveThe
SliderofA hole 325 in the wall 319 allows the flange 313 of the valve element 309 to beAnnular peak 3From the valve seat formed by 21 (FIGS. 12-14)Moved awayWhen the wall 319Provided to allow liquid to flow through. Such a large number of holesWhen opening the valve,Through the valve structureDesiredNeed to get liquid flowforused. Opening 317The annular peakBy enclosing with 321, the liquid from the opening 317LeakageThe flange 313 has a valveClosed and annular ridgeActing on 321Prevented by.
Stage 327 isThe range of movement of the valve element 309 in the direction of the opening 317 formed on the post of the valve element 309Is limiting.The diameter of the post suddenly changes from a smaller diameter than the valve at the opening 317 to a larger diameter than the valve at the opening 317, thereby forming a step 327.Line connectorofAgainst the axial force applied by valve 84 'Valve element309Limit the range to moveOf the stage 327 forThe action is12 and 13.
Line connectorTheIn the coupling part 301Mounting,RemovalShiWhenofOf slider and valve structureActionCompare the diagrams of FIGS.Is considered by. In FIG. 11, the line connector main body 71 'is a line connector.ofvalveEnd of84a 'is the sliderofValve structureInprobeEnd faceUntil it touches 311a.Open endInserted into. In the position of FIG. 11, the line connectorofO-ring 75 'is the inner surface of the sliderEstablishing the state of sealing. Further, connect the line connector main body 71 ′ to the slider 303.MoveThus, as shown in FIG. 12, the line connectorofValve 84 'Be releasedBefore the sliderofValveOpen. This implementationFormIn line connectorofThe valve spring 87 'is a sliderofThan valve spring 315As strongis there. In the position of FIG.,SliderofAgainst wall 319lineconnectorofWith valve 84 'Being energized.
When in the position of FIG. 12, the line connectorofvalveTheSomeOpen(Not shown)lineconnectorofAs the valve is shown in FIG.,maximumLimitIn the sliderMovedWhen both valvesBe releasedWith relative spring forceSecureThere is a need.ThisThis is a sliderofValveOpenLine connectorThis is to make the spring force stronger.. completelyBe releasedAnd the sliderofA limit stop formed by the valve stage 327 further moves the line connector to the slider.ofValve 84 'OpenProbes that act likeProvide. In the position of FIG.edge73 'Shaped to fitSliderofCompletely on the wall 319ConformIs done.
Coupling unit 301In the direction towards, Line connector body 71 'TieJointFurther insideBy energizing, as shown in FIG.InsideMove to. In this positionAs a commercial productThe available line connector 70 'fully wraps within its own support structure.ChisaIt is. StablecontactCondition is obtained,here, The liquid is twoReleasedThrough the valve, container orEtTaken out,LaIn connectorAttached toTo the hoseLed.
ContainerIf you want to remove it,The line connector main body 71 ′ is pulled from the slider 303.IssuedFirst line connectorofValve 84 'ClosureAndThenSliderofvalveelement309Close. As shown in FIG. 15, after the line connector body 71 'is completely removed from the slider 303, the valveelement309 is the liquid flow from the bagThecompletelyCloseMeanwhile, the slider 303 is at the same position as in FIG.Remain. Reconnect the line connector to the same containerAttachCandesirableIflineThe connector body is in the position shown in FIG.It is inSlider 30To 3Inserted2Two valvesin frontStatedSimilar toCooperate in the wayBe released. Liquid from the containerSealingIn order to remove the line connector,MoveMustIn shortNot at all.
The line connector body 71 'Attached toAfter (Figure 14)InWhen fully positioned in the slider,lineLocated in an annular groove 307 outside the connector body 71 'ElasticThe compression force of the O-ring 75 'is usuallyIsIt is sufficient to hold the line connector in place while liquid is withdrawn from the container. OnlyAndOveruseAfter the O-ring deteriorates, the valveSprings 87 'and 315 forceButIt is possible to push the line connector main body 71 ′ from the slider 303.There are cases.thisTo preventIn order toImportantIf it is, one circular peak 331TheOf slider 303insideForming on the wallShi,on the insideExtend toward.This peak331 is,Around the sliderAll inner circumferenceTwo or more such short peaks that extend toTheOn the inner periphery of the slider 303Provide. Peak331 islineThe connector body is located on the sliderWhen(FIGS. 13 and 14),Engages with O-ring groove 307 of line connector body 71 'Is located as. The dimensions of the peak 331 andlineFor the elasticity of the connector body 71 'AgainstThe elasticity of the plastic member used for the slider 303 islineWhen the connector body is inserted, the peak 331 snaps into the groove 307.As a result ofFrom Rider 303lineUnexpected connector body 71 'MoveEnough againstNaresistanceIs obtainedSelected as But thisRetentionForce the line connector from the containertakeCan be removedIf desired,lineConnector body 71 'ManuallyRemove byEnough forIt is as small as possible.
The outer surface of the slider 303 and the inner surface of the coupling portion 301 areNormalMutualCooperating cylindrical shapeFormed on the surfaceHaveThe OnlyAndSlider against jointTwo are firmly latchedPositionProvideIt is desirable.OneLike thatPlacePlace the line connector on the container first.It is attachedWhat is shown in the previous Figure 10sois there.This stable position isA ring on the inner surface of the coupling part 301ofA matching ring extending outward from the ends of the groove 333 and slider 303ofOn ring 335More natural. thisEssentialRelative relativeTypicalDimensions and forming the coupling part 301 and the slider 303ofOf plastic parts used inBy selecting the line connectorValve 84 'andValve element309Inserted in the sliderLine connector body 71 'OpenWhen the slider does not moveDo. Line connector main body 71 'is located on the sliderUntil(FIGS. 13 and 14),The slider does not begin to move into the bagthingAnd the power of the handAnnularGroove 333 andAnnularGreater than the force of the latch formed by ring 335thingIs preferred.
Similarly, holding the slider in the position shown in FIG. 15 against the force applied to the slider 303 when the line connector body 71 'is removed.Butdesirable.Mentioned aboveImplementationFormWhen the line connector is removed, the slider will move out of the bagNaThe slider 303 to the in-connector body 71 'Two ways to installis there. They are,O-ring 75 'Seal providedWhen,Located in the groove 307 of the line connector bodyRingedThis is the holding force of the peak 331. The line connector main body 71 ′ is pulled from the slider 303.Be issuedWhen shown in Figure 15ThepositionInthisPowerAnother ring to hold the slider againstofWhen the groove 337 is in the position shown,The annular groove 337 isProvided inside the coupling portion 301 so as to secure the ring 335 of the slider 303.Be. Slider 303 empty containerUntil it is time to discard itJointInsideInDont returnSoAnnularLatch formed by groove 337 and ring 335The,like thatTo provide a drawerdesignDoThere is no need. OnlyIf it is planned to be used as a reusable containerThe slider completely from the jointIt is desirable to give the ability to be removed.
While various aspects of the invention have been described with reference to preferred embodiments, it will be understood that the invention is entitled to protection within the full scope of the appended claims.

Claims (12)

In a discharge port in fluid communication with a service line connector, the service line connector typically includes a first valve member that is resiliently biased to close an end opening thereof, and further includes an end of the line connector. A mechanism for detachably attaching to the discharge port on the outside of the part, the discharge port,
A slider having first and second open ends, and a fluid passage therebetween, having an outer surface held by a coupling portion, wherein the first open end is configured to allow fluid to pass through the first open end. A slider capable of receiving the end of the line connector with a fluid seal established between the line connector and the slider to prevent leakage through the end;
A wall across the fluid passageway at a distance from the first open end and including a fluid opening therein;
A second valve member penetrating the wall, wherein the second valve member seals the fluid opening when the second valve member is biased toward the first open end. A sealing surface positioned on the side of the wall opposite the first open end, the second valve member not contacting the first valve member and the line connector When the end of is inserted into the first open end, the sealing surface is pushed away from the wall, thereby opening the fluid opening and allowing fluid to flow through the fluid passage, A second valve member including an extension member dimensioned and positioned to contact an end of the line connector so that the fluid communication with the line connector can be established;
When the end of the line connector is removed from the first open end, the second valve member is directed toward the first open end, usually in a state sealed to the fluid opening by the sealing surface. Means for elastically biasing and elastically biasing positioned within the slider;
Emission port with. 2. The discharge port according to claim 1, wherein the second valve member includes a protrusion that opens the first valve member when the line connector is inserted into the slider. The discharge port according to claim 2, wherein the second valve member further includes a plurality of extending members arranged at equal intervals around the protruding portion. The discharge port according to claim 3, wherein the plurality of extending members are a plurality of ribs, and the protrusion is a probe. When the end of the line connector is inserted into the first open end, the probe pushes the valve member of the line connector away from the end opening of the line connector, thereby the end of the line connector. 5. The outlet of claim 4, wherein the probe is sized and positioned to contact the first valve member so as to open an opening and allow fluid flow therethrough. When the end of the line connector is inserted into the slider via the first open end, the probe is moved before the end of the line connector pushes the sealing surface away from the fluid opening. The discharge port according to claim 5, wherein the probe is positioned closer to the first open end than the plurality of ribs so as to push the first valve member away from the end opening of the line connector. At the outlet for fluid connection between the container and the service line connector, the connector is of the type having a resiliently biased first valve member that normally closes the end opening of the line connector; A mechanism for detachably mounting the discharge port on the outside of the end of the line connector;
A coupling portion attachable to the container;
A first open end, which is receivable through the end of the line connector, spaced across the first open end, traverses the slider, and includes a fluid opening therein. A wall and an outer surface held by the coupling portion in a state slidable relative to the coupling portion from a first position outside the container to a second position reaching into the container. A slider having
A second valve member penetrating the wall, wherein the second valve member defines the fluid opening when the second valve member is biased toward the first open end of the slider. A sealing element positioned on the wall side opposite the first open end of the slider for sealing, an end of the line connector inserted into the first open end of the slider, and An extension member that contacts the end of the line connector when the first valve member is not in contact with the extension member, and the extension member is inserted into the first open end of the line connector. A second valve member including an extension member that is dimensioned to push the sealing element away from the wall and thereby open the fluid opening;
When the end of the line connector is removed from the first open end of the slider, the second valve member is normally connected to the first open end of the slider with the fluid opening sealed by the sealing element. Means for resiliently biasing towards the end and resiliently biasing positioned within the slider;
The slider formed complementary to the end of the line connector to slide the slider from its first position to its second position when the end of the line connector is pressed against the slider surface A surface as part of the
Emission port with. When the end of the line connector is pulled out from the first open end of the slider, there is no other presence of an accessory device that pulls out the slider from the second position toward the first position. Item 8. The discharge port according to Item 7. And further including a protrusion held by the slider to open the first valve member of the line connector when the end of the line connector is inserted into the first open end of the slider. The discharge port according to claim 7. 10. The release according to claim 9, wherein the protrusion is a probe that can open the first valve member of the line connector when the end of the line connector is positioned in the first open end of the slider. Exit. The extending member of the second valve member includes a first end of the probe, the first end extending outwardly from the probe at a distance from the end; And when the end portion of the line connector is inserted into the first open end of the slider, the line connector biases the first end portion and elastically biases the first end portion. In a state where the sealing element is pulled away from the opening of the wall against the end of the line connector, the end of the line connector is in a position that can be engaged with the end of the line connector. The distance between one end is sufficient to allow it to open the first valve member of the line connector and establish fluid flow through the end opening of the line connector. 10. The discharge port according to 10. The extension member limits the range in which the second valve member moves through the wall when the end of the line connector is inserted into the first open end of the slider. 12. The outlet of claim 11 including a second end that is present outwardly from the probe and at a distance from an end of the probe for contacting a wall.

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